General strategies leading to scale-span molecular self-assembly are of crucial importance in creating bulk supramolecular materials. Here, we report that under mechanical pressure, caking of the precipitated molecular self-assemblies led to bulk supramolecular films. Massive fabrication of supramolecular films became possible by employing a simple household noodle machine. The film could be endowed to acquire diversified functions by depositing various functional ingredients via coprecipitation. We expect that our current work opens up a new paradigm leading to large-scale functional solid molecular self-assembled materials.

中文翻译：

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压制结块：规模化分子自组装的一般策略

导致尺度跨度分子自组装的一般策略对于制造大量超分子材料至关重要。在这里，我们报道在机械压力下，沉淀的分子自组装的结块导致整体超分子膜。通过使用简单的家用面条机可以大规模制造超分子薄膜。通过共沉淀沉积各种功能成分，可赋予该膜多种功能。我们希望我们当前的工作开辟一个新的范式，从而导致大规模的功能性固体分子自组装材料。